Combined type-writing and computing machine.



A. S. DENNIS.

GOMBINBD TYPE WRITING AND COMPUTING MACHINE.

APPLIGATIOI FILED JANJB, 1909.

Patented Feb. 22, 1910.

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APPLIGATION FILED JAN. 13, 1909.

Patented Fb. 22, 1910.

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A. S. DENNIS. GOMBINIID TYPE WRITING AND OOMPUTING MACHINE.

APPLICATION FILED JAN.13, 1909. 949,979. Patented Feb.22,191o.

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APPLIOTION FILED JAN.13,1909.

Patented Feb. 22, 1910.

A. S. DENNIS.

COMBINED TYPE WRITING AND COMPUTING MACHINE.

APPLIGATION FILED JAN. 13, 1909.

Patented Feb. 22, 1910.

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COMBINED TYPE WRITING AND COMPUTING MACHINE.

APPLXOATION FILED JAN. 13, 1909. 949,979. Patenned Feb.22,1910.

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APPLICATION FILED JAN. I3, 1909. 949,979, Patented Feb. 22, 1910.

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A. S. DENNIS.

COMBINED TYPE WRITING AND GOMEUTING MACHINE.

APPLICATION FILED JAN. 13, 1909. 949,979. Eetentea Feb.22,191o.

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APPLIGATION FILED JAN. 13, 1909.

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A. S. DENNIS.

COMBINED TYPE WRITING AND COMPUTING MACHINE.

APPLICATION FILED JAN.13,1909.

949,979. Patented Feb.22, 1910.

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COMBINED TYPE WRITING AND COMPUTING MAGHINB.

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COMBINED TYPE WRITING AND COMPUTING MAOHINE.

urLIoATIoR rILBD JAH. 1a, 1909.

949,979. Patented Fame, 1910.

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A. S. DENNIS.

COMBINED TYH: WRITING AND COMPUTING MACHINE.

APPLICATION FILED JAN.13.1909.

949,979, Patented P31122, 1910.

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UNITED sTATEs PATENT oEEIcE.

ADoLPHUs s. DENNIS, or CLEVELAND, oi-Iio, AssGNoR To BATES, FoUTs AND HULL, 0F CLEVELAND, OHIO, A FIRM.

COMBINED TYPE-WRITING AND CMPTING MACHINE.

Application filed January 13, 1909.

To all whom 'it may concern:

Be it known that l, Anonrnns S. DENNIS, a. citizen of the United States, residing at Cleveland, in the county of Cuyahoga and State of Ohio, have invented a certain new and useful Improvement in Combined Typelriting and Computing Machines, of which the followino is a full, clear, and exact description, reference being had to the accompanying drawings.

This invention relates to typewriting machines and the combination therewith of a computing device, the latter being so connected with the typewriter that the operation of the numeral keys on the typewriter will, when the parts are properly disposed and the computing machine is then operated, perform various numerical computations, the numerical result depending upon the manipulation of the mechanism of the computing machine.

The various objects and the leading features of my invention may be said to be as follows:

1st. The combination with a typewriter, of computing mechanism for performing various numerical computations.

2nd. The printing, by means of the numerical keys of the typewriter, the figures representing the computation, and the simultaneous depressing in the value keybank of the computing machine the proper keys for carrying out such com iitation upon the subsequent operation of tiecomputing attachment.

3rd. The combination with the typewriting machine and the computing attachment, of a tabulating mechanism for determining the position at which the numbers will be printed upon the paper in the typewriter.

4th. The provision of escapenient mechanism under control of the typewariting machine for permitting the carriage"of the typewriter to shift from one space to the next, and for simultaneously permitting the carriage of the com uting mechanism to escape a distance su )stantially equal to the space between adjacent rows of value keys in said adding attachment.

5th. The revision of means for causing the computing attachment to add items which may be printed in a line transiersely of the paper in the typewriter.

(5th. The provision of means for causing the computing attachment to add the tota-ls Specification of Letters Patent.

Patented Fcl). 22, 1910.

Serial No. 472,046.

of items arranged in a vertical column, or in a plurality of such columns, on the paper of the typewriter, the different columns being added into separate totals.

th. The provision of means for` causing the numeral keys of the typewriter to depress the keys of co-digit values in the value kcybank of the computing mechanism whereby problems in subtraction may be performed.

8th. The provision of means for locking the value keys of the computing mechanism in their operated positions and for automatically releasing the same substantially at the end of the succeeding operation of the computing mechanism.

9th. The provision of means for causing the operations of the computing mechanism to be successively repeated whereby problems in multiplication or division may be performed.

10th. The provision of means for causing the number of operations of the computing mechanism (hiring the process of multiplication to be indicated for each order in the multiplier whereby, at the conclusion of the multiplying process, the complete multiplier will be indicated.

11th. The provision of means for applying external power for driving the computing mechanism whereby the operator is relieved of the work required for such operation.

12th. The provision of a series of clutches in connection with the driving mechanism, and order keys for throwing any one of such clutches into operative relation with the driving mechanism.

13th. The provision of means in combination with the clutches for automatically shifting the carriage of the computing mechanism longitudinally of the machine in order that the proper value keys may be depressed.

14th. The provision of means for operating one of said clutches irrespective of the order key depressed, said means consisting of a universal bar that is adapted to be operated by any one of the order keys.

15th. The provision of means for transferring from a lower to a` higher order in the computing mechanism and of means for throwing out of operation such transfer mechanism when the character of the computation necessitates suoli operation.

16th. The provision of improved means for clearing the machine, or for turning the wheels ot the computing mechanism back to zero.

The above and additional objects of the invention will be more clearly set forth in the following specitication and in the claims appended thereto.

In the drawings forming a part hereof, Figure 1 is a general plan view showing the combined typewriter and computing mechanism; Fig. 2 is a rear elevation of the combined typewriter and computing mechanism;` Fig. 3 is an end view of the computing mechanism looking toward the right hand end of Fig. 1; Fig. 3 is a perspective view showing some details of the machine; Fig. 4 is a section taken through the typewriter substantially on the line 4-4 of Fig. 1; Fig. 5 is a perspective view showing a part of the escapement mechanism for the typewriter and the means for throwing the same out of operation when the computing mechanism is to be operated; Fig. 6 is a bottom plan view of the intermediate frame for the typewriter, showing one4 of the shifting plates and the parts connected therewith. Fig. 7 is a perspective view showing the addition and subtraction keys and the adjacent parts that are operated thereby; Fig. 8 is a plan view of the rock shafts that are mounted below the intermediate frame for the typewriter and which are rocked by the numeral keys of the latter, said view also showing the frame in which said shafts are mounted; Fig. 9 is an end view of the frame shown in Fig. 8, said view also indicating the positions of the rock shafts therein; Fig. 10 is a transverse section through the computing mechanism taken substantially on line 10-10 of Fig. 1 and looking in the direction of the arrows thereon; Fig. 10BL is a perspective view of a detail; Fig. 11 is a transverse section taken substantially on the line 11-11 of Fig. 1 looking toward the left; Fig. 12 is a horizontal section through the computing mechanism taken substantially on line 12-12 of Fig. 11 and looking in the direction of the arrows thereon; Fig. 13 is a detail view of the eccentric and cam on the drive shaft, with portions of the immediately adjacent mechanisms operated thereby, said view also showing the gearing for moving the computing and typewriter carriages so as to brin them to the proper orders; Fig. 14 is a p an view of the levers that are operated by the order keys, said view show ing the universal bar and the plungers for controlling the driving clutches. Fig. 15 is a view partly in section and partly in elevation showing the clutches, the plungers for controlling the latter, and the order keys for controlling the plungers, said view also showing portions of the cam shown in Fig. 18; Fig. 16 is a view partly in section and partly in elevation of the computing wheels and ot means Yfor turning the latteiI to zero position; Figs. 1T, 1S, 1t), E20, Qt and 22 arc detail views showing the construction and the operation of the means for turning thiI computing wheels to zero; Fig. 2? is a per spective view showing the rocking web bar for throwing the computing head into and out of operative position, and the mechanism for rocking said bar; Fig. 2st is a transverse sectional view through the computing mei-hv anisln showing the repeat key and the` con nections therewith for preveliting the rt lease of the value keys, and also the means connected with said release key for permitting one of the operating segments to have a slight movement at each operation ot the computing machine whereby the number of such operations will be indicated on certain of the computing wheels; Fig. is a see tion taken through Fig. 24 substantially on the line 25--25 thereof and looking in the direction of the arrows; Figs. 26, 2T and 2S are detail views illustrating the construction and operation of the mechanism for throwing out of operation the means for locking the value keys in their depressed positions; Fig. 29 is a rear elevation showing portions ot the carriage for the computing machine and parts carried thereby and ot' the escapement mechanism for controlling the operation of such carriage from the typewriter; Figs. 3() and 31 are side and end elevations respectively of the escapement mechanism for the carriage of the computing mechanisn'i; Fig. 32 is a transverse section through the front of the computing machine adjacent the shifting key, said view being taken substantially on the line 32-32 of Fig. 12 and` looking in the direction of the arrows; Fig. 33 is a detail view showingl the means for turning the platen roller for the typewriter autolnatically when the computer is operated. Fig. 34 is a sectional view taken alongside one of' the computing wheels and illustrating the transfer mecl'ianisni in one of its positions; and Fig. 35 is a view similar to Fig. 31 but showing the transfer mechanism in another of its positions.

Taking up a more complete description of my invention by reference to the drawings, in which the same reference character desig nates the same part throughout the several viewsnl represents a base frame which is substantially of the combined length ot" the typewriter and the computing mechanism, the frame 2 of the typewriter being supported by the left-hand end of the base frame, while the frame 3 of the computing mechanism is supported upon the righthand end thereof. Beneath the typewriter frame 2 and the base plate 1, is an auxiliary framejft upon which the typewriter rests; said rame being shown in inverted plan view in Fi 6 of the drawings, and being of substantially the width of the typewriter and having a length substantially equal to the width of the base plate. This intermediate frame is adapted to be attached to the typewriter so as to be removable from the base plate when thc typewriter is removed.

The @permiten-As many forms of typewriters using the universal keyboard are equally adapted for use with my invention7 l shall describe only those parts of the typewriting machine which come into active use during the col'llputing operation. Such parts are best illustrated in 1 and 4 of the drawings, in which 5 represents the muneral keys and (S the numeral type for making the impressions on the paper by printing against the platen roller 7. The platen roller is journaled upon a shifting carriage in the usual manner, said carriage being controlled in its movements by an escapement wheel 9 with which cooperates the escapement pawls 10 and 11. These pawls are mounted upon a swinging lever 1Q that is pivoted upon a shaft 13, said lever having a depending arm 14 with a lug 15 against which a head 1G is adapted to press for swinging the lever 12 so as to shift the pawl 11 into position to engage with the escapement wheel S). The head 16 is carried upon the upper end of a stem 17 that is pivoted to the rear of a bell-crank 18, said bell-crank being pivoted on a rod 19. A spring 20 connects the rod 19 with the stem 17 in such a manner as to tend to maintain the head 1G in its forward and downward position. 21 is a horizontal plunger that is moved rearwardly by the levers 22 forming part of the connections between the keys 5 and the type carrier. This plunger has a block or collar 23 for engaging with the front of the head 16 so that, when the plun er is forced rearwardly, the lever 12 will e swung so as to permit the carriage to escape. By rocking the bell crank 18, in a manner hereinafter described, the stem 17 will be lifted until it fails to engage with the lug 15; and, in this way, the escapement mechanism for the typewriter carriage is thrown out of operation. It will be understood that the typewriter carriage is moved, when permitted to escape, by a spring 24 (see Fig. 2) in the usual manner.

The tabulation-The movements `pf the typewriter carriage are transmitted tdta tabulating bar 25 that is carried by the computing machine, through the medium of a link 26 that is removably secured to the typewriter carriage at one of its ends, its other end being permanently pivoted to a bracket 27 that is secured to the tabulatingbar. The tabulating-bar is provided with a row of vertical perforations 28 in ich may be inserted tabulating-pins 29, hich pins may be arranged in the said perforations according to any desired order. This tabulating-bar with its pins has the usual function of permitting the typewriter can riage to escape and move to the proper cxtent for bringing the paper on the typewriter carriage in position to receive the printed impressions of the numeral types. ln this way thc various items on the sheet may be arranged in vertical colmnns and the columns may be placed in any desired position upon the sheet. The talmlating bar and the typewriting carriage are arrested by the engagement of the pins 2t! with an escapement mechanism l-ltl that is mounted upon a rack-bar 3l of the computing mechanism. The escapemcut mechanism 30 cooperates only with the pins E29 of ythe. tabulating bar, permitting said bar with the typewriter carriage to move the distance be tween the adjacent pins before being again arrested. This escapement mechanism, therefore, controls thc relative movement between the tabulating-bar and the rack-bar 31. Normally, the bar 25 is held elevated so as to maintain thc pins 20 out of engaging position with the escapement mechanism, and said bar must be lowered into operative position when the computing mechanism is to be used in connection with the typewriter. At such time the escapement mechanism for the typewriter is maintained out of operation, and the movements of the carriages on the typewriter and the computing mechanism are controlled by an escapcmcnt on the latter carriage, said escapement mechanism being shown in Fig. .29 at 32, and being hereinafter more fully described.

The adding-key and its connections-I shall now describe the mechanism for throw ing out the escapement for the typewriter and for placing the tabulating-bar in its operative position, and will invite attention to Figs. 1 to 7 inclusive of the drawings.

33, Figs. 1 and 7, is a special key which I shall herein term the adding key, said key being mounted for vertical movement in a slot 34 in the frame 2 of the typewriter and being pivoted to a rearwardly extending key-lever 34 near the forward end of the latter. A spring 35 connects the key-stem with the frame in front of the slot and tends to draw the stem toward the front end of the slot. In order to hold the key in its depressed position, the stem is provided with a lug 3G on its rear side. When the. key is depressed and the same is rocked sli htly to the rear, the lug engages with the rame Q and holds the key and its lever 34 depressed. This lever is pivoted at its rear end to the rear side of the intermediate frame 4.

Extending transversely across the frame 4 and journaled in the side members of the latter is a rock shaft 37, said rock shaft be ing provided with a crank arm 38 having a laterally extendinV pin or roller 39 that projects beneath the Lkey-lever 34 so that, upon the operation of the key-lever, the shaft will hc rocked. Extending from front to rear of the tramo 4 and guided in perforations in said franal are sliding rods 40 and 4l., said rods being turned to a` smaller diameter at their ends where they slide in said perforations. Secured to the under side of said rods` near their centers is a plate 42, said plate being of the formation. shown in Fig. (3 of the drawing and haring a series of perforations` tht-rein to ret-cire and guide the lower ends of vertically extending plunger rods 43 and i4, the rods 44 being longer than the rods 43, for a purpose hereinafter set forth. Above the plate 42, and supported therefrom. is a similar plate 45, said plate being provided with perforations above those in the lower plato through which the plnngers 43 and 44 are also guided. The springs 46 between the plate 42 and the collars or pins on the plungers tend to thrust the plnngers upwardly. The upper ends of the plungers are immediately below the numeral key-` lerers 5 of the typewriter. which levers depress their cori-csp:inding plunger or plungers when the numeral keys are operated.

Supported in brackets 47 from the base plate 1 is a frame having end plates 4S and 49 (see Figs. 8 and 9), said end plates being secured together by rods 50. Journaled in the end plates is a series of rock shafts 51 and 52, the shafts 52 being preferablyY immediately below the shafts 51, and there being altogether nine of said shafts. Pro'ecting rearwardly from the shafts 51 and 52, and arranged thereon in positions to cooperate with the plunger rods 43 and 44, are selecting fingers 53 and 54, the fingers 53 being on the shafts 51 and the lingers being on the shafts 52. Each of these fingers is L-shaped; and, during the operation of the typewriter alone, the said fingers are so positioned with respect to the lower ends of the plungers 43 and 44 as to permit said plungers to lnove downwardly in the angle of the L without engaging the fingers,- Fig. S showing in section the plungers, and also distinguishing by shading the fingers 54 from the fingers 53.

As stated, the plates 4Q and 45 are earried by the sliding rods 40 and 41, which rods and plates are normally in their forward positions, as shown in Figs. 4 and 6. Upon the operation of the adding key 33 and the consequent rocking movement imparted to the rod 37, a downwardly extending arm 55 on the rock shaft 37, engaging with a shoulder 56 on the plate 42, moves the plates, the rods 41 and the plnngers 43 and 44 rearwardly so as to bring the lower end of the plungers above the lateral arms of the L- shaped fingers 53 and 54, so that, upon the depression of a numeral key 5, the corresponding rock shaft or shafts 51 and 52 will be rocked. Although the purpose of such operation will be fully set forth hereinafter, it may now be stated that the rock shafts 51 and 52 depress keys in the computing attachment and thus determine the 'alues to be dealt with in the next succeeding operation of the computing mechanism.

From the above description it will be understood that the operation of the adding key places the connections between the typewriter and the computing mechanism in operative condition, which condition is maintained so lon as the adding key is held depressed by tie engagement of its lug 36 with thc frame 2. W'hen the adding key is to he released it is only necessary to draw said key forwardly until the lug 36 escapes from the frame, when a spring 57, that connects the plate 42 with the fran'le 4, returns the plates and their pl lmgers to normal position and, through the rock shaft 37, lifts the adding lever-key 34. Then the computing mechanism is to be thus thrown into operative relation with the typewriter, it is necessary to throw out of operation the escapement mechanism for the typewriter and to lower the tahulating bar 25 so as to bring the tabulating pins 9.9 in position to engage the escapement mechanism 30 for the said bar; and I shall now describe the means by which these different operations are accom.- plished.

Connected with the plate 42, Fig. 6, is a rearwardly extending plunger 58, said plunger being guided at its rear in the intermediate frame 4. Said plunger has a laterally extending pin 59 that is adapted to engage with a downwardly extending arm 60 of the bell-crank 18, Fig. 4, whereby, when the plunger is thrust rearwardly by the operation of the adding key-lever 34, the bellcrank 13 will be rocked to lift the stem 17 and the head 16 so as to carry the latter above the lug 15 on the lever 12 which carries the escapement-pawls 10 and 11. Thereafter, the operation of the numeral keys 5 on the typewriter will not rock the lever 12, so that the typewriter escapement is thrown out of operation. The pawl 10, however, will remain in the plane of the escapement wheel, and it must be thrown out of engagement with said wheel so as to leave the same free to turn. For this purpose 1 employ a bellcrank 6l .having an arm depending into the path vofiinovement of the rear end of the plunger 58 so as to be swung thereby when the adding-key is operated. To the forwardly extending arm G2 of said bell-crank I attach the lower end of a connecting rod 63, the upper end of which is pivoted to a yoke 64, see Fig. 5. The opposite sides of this yoke are perforated at for the reception o a. pin upon which the yoke is pivoted, id yoke bein normally held in the position shown in Flg. 5 by a spring 66, see Fig. 4. One side of the yoke is eX- tended 4at 67 so as to project over the upper end of the escapeinent pawl` l0, whereby upon the operation of the yoke, said escapement pa wl will be depressed and thereby removed from the wheel 9, thus leaving the latter' perfectly free to turn. As has been stated, the tabulating bar 25 is attached to the typewriter carriage through the link 26, and the carriage and bar are moved by the spring 24 on the typewriter. Upon the depression of the escapement pawl l0, the typewriter carriage and the tabulating bar are thrown to the right, as viewed in Fig. 2, and they would continue this movement to the end of their travel unless arrested by the tabulating pins 29. These are normally held above the escapement 30, and must consequently be lowered into engaging relationship therewith. For this purpose, I mount in brackets 68 on the rear of the base frame l a rock shaft 69, said shaft having an u wardly extending arm 70 at the rear of te plunger rod 58, and a pair of rearwardly extending arms 71 below the tabulating bar. A coil spring 72, operating in a well known manner in connection with one of the arms 71, operates to hold the latter arms elevated und the arm 70 against the end of the plunger 58.

As appears from Figs. B and 10, the tabulating-bar 25 is mounted to slide in ballbearings between the ends of upwardly extending arms of a U-shaped guide frame 73, which frame is supported upon the upper ends of lifting-rods 74, said rods being guided in brackets 7 5 and 76 that project from the frame 8 of the computing machine. 'lhe lower ends of the lifting-rods rest upon the arms 71 of thc rock shaft (59, and the spring 7 E! normally maintains the frame 73 and the tabulating-bar in their upward positions. Upon the operation of the addingkey and the consequent backward thrust of the plunger 58, the rod 69 is rocked to lower the arms 71 thereon and thus lower the tabulating-bar and the pins therein until the latter are in position to engage with the escapement 30. The same movement, therefore, of the adding key operates to release the typewriter carriage and the tabulating-bar and to bring the latter into position to be arrested by the escapement 30. The position of the first pin 29 in said bar will determine the oint at which the typewriter carriage will e arrested. y y

The keyboard for the computi-ngutncchmisiva-Toward its lefthand end, the frame 3 of the computing mechanism is provided with an intermediate or partition frame 3, see Figs. 11 and 12. Extending from the partition frame to the right hand end of the main frame, are stationary rods 77, said rods supporting a series of curved guide plates 78. Separated from and sup rted by the plates 78 is a corresponding se es of curved guide plates 79, the latter plates being substantially concentric with the plates 78. Each of these plates is provided with a series of perforations for spring-pressed plungers 8O and 81, there being four of each of the plungers 80 and 81 in each set of said plates 78 and 79. As appears from Fig. 11, the plungers 8O extend barely through the plates 79, while the plungers 81 extend through said plates to a farther distance, for a purpose hereinafter set forth. The plungers 8O and 8l are respectively on opposite sides of the center of said plates and are separated some distance at the center, for a purpose which will also be made to appear. The plungers are normally maintained in their upper positions by springs 82 which surround the lungers between the plates 78 and 79, bearing with their lower ends upon the latter plates and with their upper ends upon collars or pins 88 connected wlth the plungers. Also supported by thc 1 partition frame and the end frame, is a top plate 84, said plate serving as the upper part of the casing for the computing mechanism. Supported by said plate 8a below the latter, and separated therefrom by posts 85, is a guide plate 86, said plates 84 and 86 serving as guides for the stems 87 of the keys 88 of the computing machine, which keys, in order to distinguish the saine from other keys of the computing machine hereinafter described, I shall terni value keys. The lower ends of the key stems 87 are provided with lateral projections or feet 89 which extend into positions for engagement with the upper ends of the respective plunger-s 80 and 81, whereby, upon the depression of a key 88, its corresponding plunger will be thrust downwardly through the plates 79 into position to engage with certain of the operating part-s' hereinafter to be described, and thereby determine the value of the numerical computation that is to follow upon an operation of the computing machine. The key stems 87 are returned to their outer position by the springs 82 of the plungcrs, and they are limited in their outer movements by the feet 89 which cngage with the plate 8G. The keys 88 are held in their downward positions by pins 90 on locking frames 91, said frames each consisting of a pair of parallel plates that are held together by the pins 90, being guided in their fore-and-aft movement by the posts 85, the latter being provided wit 1 circumferential grooves 92 in which said frames move. The pins 9() are adapted to engage in notches 93 and 94 on the rear of each of the key stems, the notches 93 receiving the pins when the. keys are in their outward positions, and the notches 94 receiving said pins when the keys are fully depressed. Each of the transverse rows of keys in the value keyboard has its own locking frame 91, and each of said frames is drawn forwardly into locking position by a spring 95 that is secured at one of its ends to the plate and at its other end to an arni of a bell-crank, said bell-crank being piroted below the plate 80 and engaging with one of the pins extending between the plates comprising the corresponding frame 91. 1n case the wrong key in one of the order rows of the value keybank should be depressed, it may be released upon the depression of another key in the same row, which will cam back the lock-frame for that, row until the pin 90 can escape from the notch 94 of the wrongly depressed key, which key will thereupon be thrown outwardly by the spring 82 for the correspond ing plune'cr. 1t may here be stated that the bell-cranks 9G each have a forwardly extending arm 97 with a slot in its end, in which is pivoted the u )per end of a plunger 98, the function of which will be hereinafter set forth, said plungers being guided in perforations in their respective sets of plates i8 and 79.

Value tfey operating mechanisms-As has been hereinbefore stated, the value keys of the computing machine are depressed by the depression of the numeral keys of eorresponding value in the typewriter. This statement is not true, however, in the operation of the machine for subtracting, in which case the operation of a key of a` certain value in the typewriter depresses the key in the computing machine having the teo-digit value,the cao-digit being that` number which, when added to the value of the depressed key in the typewriter, will make nine-which latter operation will be later described.

I will nop7 describe the connections between the typewriter keys and the Value keys of the computing mechanism and will again invite attention to Figs. 4 and 8 of the drawings.

Upon the depression of a numeral key 5, the corresponding rock shaft 51 or 52 is operated through the plungers 43 0144 and the selecting fingers 53 and 54. Each of the shafts 51 and is provided near its right hand end with a crank arm 99, shown also in dotted line in Fig. 10 and in full line in Fig. 12. The crank arms 99 are connected, through rods 100, to similar crank arms 101 that are mounted on tubular shafts 102 that extend longitudinally of the eomputin machine, terminating adjacent the row o keys of highest order in the value key bank, as appears from Fig. 1, said tubular shafts being journaled at their left hand ends in a plate 103 that is carried by the frame 3 of the computing mechanism. The shafts 102 are returned to normal position by springs 101 that are connected with the top plate 84 and with pins 105 that project from the tubular shafts. The connecting rods 100 are adjustable in length, being formed in two parts that are connected together hy an internally threaded sleeve 101' that engages willi threads on the lower part of said roils. Each of the tubular rods 102 is slotted` preferably along their lower sides as shown, through which slots project pins or keys 107 on shafts 102:1l thatI extend into the said tubular shafts. VBy this construction, the rocking movements iniparted to the tubular shafts will also rock the shafts 10S.

As will be seen from Fig. 1, there are nine value keys in each transverse row of the value keyboard, so that there are nine longitudinal rows of keys in said keyboard. Each of said longitudinal rows of keys has its eorresptaidingI shafts 102 and 108, so that there are nine sets of said shafts, the shafts 10S extending slightly above and slightly in advance of its cor responding row of value keys. The fune tion ofthe shafts 10S to depress the value keys, and this is rarried into effect. by a depressing iinger 109 on each of said shafts, said lingers pressing upon the heads nl. the keys when the shafts are rocked.

The right hand ends of the shafts 109 are journaled in a plate 110 which, as appears from Figs. 1, 11 and 29, is attached to the carriage 111 of the computing machine, said arriage being` mounted to slide in ball-bearings between guides 112 and 113 that are secured to the frame of the computing ma chine. The forward end of the plate 110 is bent downwardly and is provided with a roller 111 which travels in a groove in a front plate 115 that is carried on the front of the casing for the computing mechanism.

The computer cmrz'af/c mit? Hic (scellement f/mrcfor.-The carriage for the computer is shown in detail in Fig. 29, which figure also shows the guides 112 and 113 for the earriage and the plate 110 in which the rock shafts 108 are journaled. The carriage 111 has secured thereto a rack bar 110, with which meshes a spur gear 117` sce Figs. 2, 11 and 12 that is journaled on a stub shaft 118 projecting from the guide 113. Secured at one of its ends to the stub shaft 119 is a spiral spring 119, the other end of which is secured to the gear 117. said spring being under tension so as to turn the gear 11H to the left, as viewed in Fig. 2, or opposite the hands o:f`;a watch, so as to move the rack 110 and the carriage 111 toward the left in said figure. The spring 119 is contained within a` casing 120, having a rear plate 121, said easing being secured to the gear 117 so as to turn therewith. Secured to the plate 121 of the casing concentric with the shaft 119. is a pinion 122, said pinion meshing with a rack 123 on the rack-bar 31. As appears from Fig. 10 o the drawings, the rack-bar 31 is mounted'to slide in ball-bearings between guides 124 of the carriage 11.1, and said bar 3] carries the escapement mcelianism 30 for the tal'uilating-l'iar. rIhe carriage 111 also hasI secured thereto a ratchet escapementbar 125, the teeth on the same being shown at 126 in Fig. 29. Vith said teeth cooperate escapement pawls 12T and 128, said pawls being mounted in the frame 32 of said eapement mechanism (see Fig. 30). At their rear ends these pawls are pivoted upon a pin or rod 129 in said frame, the pawl 123 being' slotted at 136, so as to be capable. of longitudinal movement on its pivot pin. The pawls are normally held in their forward and upward positions by springs 131 in the frame, which exert a forward and upward thrust upon the free ends of the pawls, the latter being prevented from rising too far by a pin 132 in the frame 32 which engages with lugs 133 on said pawls. The frame of this eseapelnent mechanism is secured to one end of a rock-shaft 134, said roeleshaft being journaled at. one of its ends in a bracket projection 135 of the guide-bar 113, and at its opposite end in a stationary bracket 136 that is carried by the frame of the computing machine. A spring` 137, which engages at one of its ends with the guide-bar 11.3 and at its other end with an arm 138 secured to said shaft, normally holds the latter in position to canse the escapement-pawl 128 to lie in the plane of the teeth 126 on the ratchet-bar 125. As appears from Fig. 2, the shaft 134 projects to the rear of the typewriting machine. and the arm 133 on said shaft is situated at the rea r of the head 16 on the stem 17. See Fig. et. The. upper end of the arm 138 is provided with a lug 139 similar to the lug 15 on the escapement-lever 12. then said head 16 is lifted, upon the depression of the addingkey. as hereinbefore described, the rearwardly extending lug on said head is carried beyond the lug l5, as hereinbefore stated, and is brought opposite and into cooperative relation with the lug 139 on the arm 138. It will also be remembered that.,y simultaneous with the lifting of said head, the escapement pawl 10 controlling the typewriter carriage was thrown out of operative position by the yoke 64 of Fig. then the head is lifted, the subsequent operations of the typewriter keys, camming backwardly on the plunger 21, rock the arm 13S and the shaft 134, and thereby rock the frame 32 :of the escapement mechanism for the computer carriage. The tension of the spring 119 is suiiieient to cause the tooth 126 on the ratchet bar 125 to force backwardly the pawl 128 against the tension of its spring 131 so as to bring its operating face into substantial alinement with the operating face of the adjacent pawl 127; and this is the normal position of these pawls. When, ther ore the shaft 134 is rocked by the depression of a key on the typewriter, the frame 32 is moved so as to throw the pawl 12T into position for engagement with the same tooth 126 that had previously been engaging with the paw] 128, which latter pawl, being treed from the ratchet bar,is pushed forwardlyby its spring into the position shown in Fig. 3o,y leaving sutlieient space between said pawls for the tooth 126 to pass` which operation takes place when the typewriter key is released. The. ratchet-bar 125 and the carriage 111 beingl thus temporarily released. the carriage moves.r under the stress of the spring 119, until the next succeeding tooth 126 on the ratchet hareng-ages with the pawl 128` as hereinbefore describetil.

As appears from Fig. 2, when the gear 117 and the pinion 122 are permitted to turn by the escapement mechanism just. described` the rack-bar 123 moves to the right in said figure a short distance, while the rack-bar 116 and the carriage 111 move to the left a greater distance` the ditierenee in the distances moved being due to the ditl'erenee in the sizes of said pinion and said gear. The. movement of the rack 123 carries the escapement 3() for the tabulator a distance to give the ordinary spacing on the typewriting machine while the carriage 111 is moved a distance approximately equal to the space between the transverse rows of value keys on the computer. Thus the typewriter is accurately spaced and the depressing tingers 109 are brought into position for de pressing a` key in the next succeeding row of the keybank, the shafts 103 being drawn out of the tubular shafts 102 as the plate 110 of the carriage 111 moves.

In writing the numbers upon the typewriter it is very desirable to form a wider space between the decimals and units, between the hundreds and thousamls, ete.` to prevent confusion in reading. For this re: Son the teeth on the ratchet-bar 125 are not spaced equidistantly, as appears from Fig. 29` the wider spaces between the teeth permitting the carriage 111, and consequently the typewriter carriage to escape a greater distance than normal. By this arrangement the depressing fingers 109 do not always press upon the centers of the keys 88, the shorter distance between the teeth 126 beingl a trifle shorter than the distance between the rows of keys in the value keybank` while the greater distance between said teeth is slightly greater than the distance between said rows of keys. By properly spacing the teeth 126, the loss of movement of the depressing fingers caused by the narrow spacing of the teeth is balanced by the excess of movement when the wider space is reached.

Driving mechanismfor computing machines-The operation of the numeral keys of the typewriter performs no )art of the computing process except to epress the 

